Inter-Research > DAO > v155 > p193-198  
DAO
Diseases of Aquatic Organisms

via Mailchimp

DAO 155:193-198 (2023)  -  DOI: https://doi.org/10.3354/dao03753

NOTE
Pseudacris regilla metamorphs acquire resistance to Batrachochytrium dendrobatidis after exposure to the killed fungus

Taegan A. McMahon1,2,*, Caitlin L. Nordheim2, Sarah E. Detmering2, Pieter T. J. Johnson3, Jason R. Rohr4, David J. Civitello5

1Connecticut College, Department of Biology, New London, Connecticut 06320, USA
2University of Tampa, Department of Biology, Tampa, Florida 33606, USA
3University of Colorado, Ecology and Evolutionary Biology, Boulder, Colorado 80302, USA
4University of Notre Dame, Department of Biological Sciences, Notre Dame, Indiana 46556, USA
5Emory University, Department of Biology, Atlanta, Georgia 30322, USA
*Corresponding author:

ABSTRACT: The pathogenic fungus Batrachochytrium dendrobatidis (Bd) is associated with drastic global amphibian declines. Prophylactic exposure to killed zoospores and the soluble chemicals they produce (Bd metabolites) can induce acquired resistance to Bd in adult Cuban treefrogs Osteopilus septentrionalis. Here, we exposed metamorphic frogs of a second species, the Pacific chorus frog Pseudacris regilla, to one of 2 prophylactic treatments prior to live Bd exposures: killed Bd zoospores with metabolites, killed zoospores alone, or a water control. Prior exposure to killed Bd zoospores with metabolites reduced Bd infection intensity in metamorphic Pacific chorus frogs by 60.4% compared to control frogs. Interestingly, Bd intensity in metamorphs previously exposed to killed zoospores alone did not differ in magnitude relative to the control metamorphs, nor to those treated with killed zoospores plus metabolites. Previous work indicated that Bd metabolites alone can induce acquired resistance in tadpoles, and so these findings together indicate that it is possible that the soluble Bd metabolites may contain immunomodulatory components that drive this resistance phenotype. Our results expand the generality of this prophylaxis work by identifying a second amphibian species (Pacific chorus frog) and an additional amphibian life stage (metamorphic frog) that can acquire resistance to Bd after metabolite exposure. This work increases hopes that a Bd-metabolite prophylaxis might be widely effective across amphibian species and life stages.


KEY WORDS: Chytrid · Batrachochytrium dendrobatidis · Prophylaxis · Pacific chorus frog · Acquired immunity · Wildlife vaccines · Killed zoospores


Full text in pdf format
Cite this article as: McMahon TA, Nordheim CL, Detmering SE, Johnson PTJ, Rohr JR, Civitello DJ (2023) Pseudacris regilla metamorphs acquire resistance to Batrachochytrium dendrobatidis after exposure to the killed fungus. Dis Aquat Org 155:193-198. https://doi.org/10.3354/dao03753

Export citation
Share:    Facebook - - linkedIn

 Previous article